CA3097464A1 - Film-forming system with barrier effect, in particular against air pollution, of natural origin and for use in cosmetics - Google Patents

Abstract

The subject matter of the application is a film-forming system, preferably for cosmetic use, made up of at least one pregelatinised starch and of at least one non-starch polysaccharide selected from: gums of plant origin, preferably gums originating from algae or plants, gums of microbial origin,and cellulose derivatives. The film-forming system according to the invention provides a barrier effect, in particular against air pollution. The application also relates to a method for manufacturing such a film-forming system and to the cosmetic compositions, in particular topical compositions, containing said film-forming system, such as skincare products, hair care products, make-up products, solar protection products, hygiene products or perfumes.

Description

Film-forming system with barrier effect, in particular anti-atmospheric pollution, original natural and used in cosmetics The present application relates to the use in topical application of a system film-forming of natural origin, usable in particular as an anti-pollution agent atmospheric, having the effect of creating a film on the surface of the skin or hair acting as a barrier to particles of polluting material.
The application also relates to a cosmetic composition with a barrier effect.
and anti-pollution comprising the film-forming system in a physiologically medium acceptable.
The present application provides a solution to two current cosmetic needs : provide a product as natural as possible, and protect the skin from aggressions environmental, especially air pollution.
Cosmetic products are formulated products made from mixtures, combination or shaping of multiple ingredients. We are looking for today for questions of public health, respect for the environment and sustainability, moreover in addition to formulating them from natural ingredients instead of synthetic. Polymers natural, in the form of gums and resins, long used as binders soluble in water, film-forming agents but also thickeners, therefore find a certain youth.
Environmental pollution, and more particularly atmospheric pollution known as English name for smog, is made up of inorganic particles and fibers can understand heavy metals, covered, and linked together, by compounds toxic or carcinogenic organics such as hydrocarbon compounds aromatics polycyclic, furans, aldehydes, which can even be associated with microorganisms pathogens. Such particles have sizes ranging from less than 1 µm up to 500 µm. More these particles are small, the more their toxicity is increased. According to one study carried out by L'Oreal, particles of size ranging from 2.5 µm to 10 µm are the most harmful: they penetrate deep into the epidermis where they cause degradation chemical serious.
Air pollution causes premature aging of the skin. He has been demonstrated that the aging process caused by this pollution is directly related to peroxidation of epidermal lipids, oxidative stress, apoptosis and to damage cells caused by UVB rays, causing the appearance of blackheads, decrease in the radiance of the skin; and an increase in the sensitivity of the skin.

2 The protection of the skin against environmental pollution is thus a new one cosmetic target to protect the appearance and health of the skin, while now a pleasant texture from a sensory point of view on the skin, nails or hair.
Initially, the industry used polymers of natural origin for this function film-forming with anti-pollution barrier effect. However, these presented a certain number of drawbacks, particularly in terms of color, odor, purity, constancy efficiency and viscosity stability. These reasons led to their substitution by synthetic or semi-synthetic polymers.
As such, the carbomers widely used in cosmetics are known. Range Carbopol developed by the LUBRIZOL company is an example. We can cite in especially the Carbopol Ultrez 10NF product which is a copolymer of polyethylene glycol and acid ester long chain alkyl, created to provide film-forming properties to a wide variety of cosmetic formulas.
Nevertheless, the cosmetics industry today has to face new challenges in terms of protecting the environment, preserving our resources fossils, carbon footprint and consumer safety and protection. From this point of view, it reconsiders its formulations and returns as much as possible to the use of solutions of natural origin for the formulation of its products. Science and technology are making progress in this area with the aim of offering technical solutions, reliable, efficient, allowing the formulator to achieve film-forming functions efficient in the products he produces, with natural ingredients, highly respectful of the environment and the consumer.
In this regard, the Applicant has succeeded in developing a new system film-forming with a barrier effect, in particular against atmospheric pollution, from of a mixture at least one pregelatinized starch, and at least one non-selected starch among gums of plant origin, gums of microbial origin, and derivatives cellulosic. From this combination, the Applicant has succeeded in put in point a film-forming system, particularly well suited to formulations cosmetics.
The film-forming system according to the invention is suitable for being applied to the epidermis human or any other external part of the human body such as in particular the hair, Under the form of an aqueous composition, which, after drying, leads to the formation of a film on the surface of the epidermis. This film is a protective barrier, forming a double skin, that prevents

3 or reduces the contact of the epidermis or the hair system with the particles of pollution atmospheric. When the epidermis or the hair system, thus covered by the movie is exposed to microparticles, rinsing with water removes some of microparticles deposited on the film, while in the absence of film, no elimination by washing with water is not possible. The film-forming system of the invention provides a movie having protective properties of the skin and the hair system against particles polluting atmospheres, especially microparticles: reduction of exposure to these particles, and reduction of the adhesion of these particles on the epidermis or the hair system.
In addition, compared to films formed with an original film-forming agent petrochemicals such as polyacrylates, the reduction in adhesion is more important with the film-forming system according to the invention.
The film-forming system according to the invention also makes it possible to confer a function film-forming at aqueous cosmetic compositions, in particular aqueous solutions, and the stabilize and this, in a totally unexpected and synergistic way between its different constituents. As such, the viscosity obtained in the presence of the mixture is indeed better than that observed for each of the constituents taken separately, or for the combinations of 2 only of these constituents.
The film-forming system according to the invention advantageously has a viscosity modular and cleverly chosen to allow its use in one concentration sufficient in the cosmetic composition without leading to an excessively thickened texture of the latter and to obtain after application the best film-forming effect and the most continuous possible on the skin or hair.
In addition, the film-forming system according to the invention makes it possible to obtain a very great stability of viscosity over time, without noticeable change in texture, over durations of several months. Such a result is particularly advantageous, and allows to reach the high level of stability required for cosmetic products in which said system film-forming is brought into use.
From a sensory point of view, the film-forming system according to the invention leads also to particularly advantageous properties in making it possible to obtain products cosmetics WO 2019/20226

4 of creamy texture, which after application give a touch particularly soft and pleasant.
As a result, the film-forming system according to the invention makes it possible to obtain both barrier film and protective against pollution but also to stabilize gels or emulsions like care or makeup creams, to adjust their textures and improve their properties sensory by giving them advantageously a non-greasy, non-stringy feel and particularly soft and fresh.
Also, a first object of the present invention consists of a system film-forming, preferably for cosmetic use, consisting of:
a) at least one pregelatinized starch, b) at least one non-starch polysaccharide chosen from:
i. gums of plant origin, preferably gums obtained algae or plants, ii. gums of microbial origin, iii. cellulose derivatives.
According to a first embodiment, the film-forming system of the present invention can take the form of a system consisting of:
= at least one pregelatinized starch, = and at least one non-starch polysaccharide chosen from gums original vegetable and microbial gums.
According to a second embodiment, the film-forming system of the present invention can take the form of a system consisting of:
= at least one pregelatinized starch, = at least one non-starch polysaccharide chosen from gums original vegetable and gums of microbial origin, = and at least one non-starch polysaccharide chosen from derivatives cellulosic.
A second object of the present invention relates to a method of preparation of a film-forming system, through the steps of:

a) provide an aqueous solution, b) heating the aqueous solution to a temperature between 20 C and 80 C, preferably between 20 C and 50 C, and more preferably between 20 C
and 30 C, c) introduce with stirring into the aqueous solution at least one starch pregelatinized,

5 and at least one non-starch polysaccharide chosen from gums original vegetable gums, gums of microbial origin, or cellulose derivatives, in order to to obtain a medium, A third object of the present invention relates to a composition cosmetic comprising the film-forming system according to the invention.
A fourth and final object of the present invention relates to the use cosmetic of a film-forming system according to the invention. More particularly, this invention carries on the use of the film-forming system according to the invention in a composition topical, preferably for use on the human epidermis, to provide said topical composition a barrier property, preferably anti-atmospheric pollution.
The film-forming system according to the present invention is a mixture of at least binary, comprising at least 50%, or better still 60%, by weight relative to the total weight, at minus one pregelatinized starch. Such starches can include amylose and amylopectin in varying proportions. Particularly preferred are the starches pregelatinized derived from corn, potato, wheat, rice, peas, oats lentils, field beans, broad beans, beans, chickpeas, or combinations of these.
Preferably, this starch is a waxy starch, that is to say rich in amylopectin and poor in amylose, preferably containing at least 95% m of amylopectin. he can to act in particular of a waxy starch of corn, potato or rice.
Pregelatinized starches are generally prepared by techniques thermal, chemical or mechanical likely to cause a simple swelling, a burst partial, or even complete solubilization of the starch granules so as to what they become partially or totally soluble in water according to a process said coldly, i.e. by dispersion in water at a water temperature below 45 It's better less than 35 C, and better still close to room temperature.
Thus, preferably, the pregelatinized starch no longer or almost more granules presenting a Maltese Cross in polarized light.

6 The preferred techniques for obtaining a pregelatinized starch are techniques cooking / drying of starch suspensions in aqueous medium such as in particular atomization, drum baking or extrusion. Autoclaving or indirect heating on heat exchanger are also possible cooking processes and tend to produce complex colloidal dispersions consisting of intact granules, fragmented and swollen. Examples of the process for preparing such starches can be found.
in the documents US 3,086,890, US 3,607,394 or even FR 2 822 471.
This pregelatinized starch may or may not be modified before or after pregelatinization, that is say after application of the baking / drying treatment described above.
When it is desired to retain an unmodified pregelatinized starch, that is to say not grafted by chemical or enzymatic route, this pregelatinized starch will be chosen advantageously among waxy starches, that is to say rich in amylopectin and low in amylose. He could be in particular of a waxy starch of corn, potato or rice, of which the viscosity aura could be adjusted by a simple hydrolysis according to the well-known techniques of man of job.
When it is desired to have a starch having very highly film-forming while being very stable in formulation of cosmetic products, or may then choose to preferably a modified pregelatinized starch. In terms of modification, it could be then one or more modification (s) by physical, physico-chemical route, chemical route or enzymatic route. It may in particular be a treatment, or several treatments combined with each other, dextrinification, acid hydrolysis, oxidizing or pathway enzymatic, carboxymethylation, hydoxypropylation, hydroxyethalion, acetylation, octenylsuccinylation, cationization, crosslinking, grafting. Of starch preference pregelatinized is chosen from modified starches, in particular dextrinified, hydrolyzed, carboxymethylated, hydroxypropylated, acetylated, octenylsuccinate or cationic, pregelatinized. More preferably, the pregelatinized starch is chosen among the starches carboxymethylated, hydroxypropylated, acetylated, octenylsuccinate, pregelatinized.
It should be noted, however, that thermal or mechanical techniques susceptible cause a simple swelling, a partial bursting, even a complete solubilization starch granules so that they become soluble in water according to a process said cold, are not necessary since some modifications physicochemical or chemical applied to the starch are sufficiently advanced.
Indeed it is possible to use as pregelatinized starch within the meaning of invention, products only dextrinified, hydrolyzed, cationized, hydroxypropylated or caboxymethylated

7 with more or almost more granules with a Maltese Cross in light polarized by the simple fact of their modification.
In particular, it is preferred to choose from pregelatinized starches, starches nonionic pregelatinized products and in particular those of the range marketed by the Applicant under the brand PREGEFLO, GLUCIDEX, STABILYS or TACKIDEX. Of examples of such most preferred starches are acetylated or hydroxypropyl, such as, for example, the acetylated starch PREGEFLO CH 40.
The film-forming system according to the invention consists of a second component which is a non-starch polysaccharide. This component can be chosen from: gums original plant, preferably gums obtained from algae or plants; the erasers of microbial origin; or cellulose derivatives. By polysaccharide no starchy Applicant means polysaccharides of cellulosic origin or of origin microbial, such as exopolysaccharides, which are predominantly, or even completely, constituted saccharides linked together by osidic bonds in beta conformation, and can have a linear or branched structure.
As gum of plant origin, there may be mentioned in particular:
- gums obtained from seeds or exudates of plants such as gum arabic konjac gum, guar gum, locust bean gum, tragacanth, rubber tara, cassia gum, karaya gum, psyllium gum, pectin and pectates or their derivatives and mixtures;
- gums extracted from algae such as agar-agar, galactomannans, alginates or carrageenans or their derivatives and mixtures;
As gum of microbial origin, mention may in particular be made of gums issued microbial fermentation such as xanthans, gellans, mannans scleroglucans or their derivatives and mixtures, and preferably a gum xanthan.
Preferably this gum of plant or microbial origin used in the film-forming system according to the invention is a nonionic polysaccharide. We prefer them gums resulting from fermentation such as xanthans, gellans, mannans and the scleroglucans, and in particular xanthans and scleroglucans, and more especially the xanthans. Such xanthan gums generally have a molecular weight including

8 between 1,000,000 and 50,000,000 Da. Among the possible commercial products, we can quote for example the product Xanthan Gum FNCS-PC from the company Jungbunzlauer International AG, the product Keltrol CG-T from the company CP Kelco, the product Cosphaderm X 17 of the society Cosphatec, the product Kahlgum 6673 FEE - Xanthan Gum from the company KahlWax, the products Rhodicare S and Rhodicare XC from Solvay and the product VANZAN NE-C
of the society Vanderbilt Minerals.
As cellulose derivative, it is possible to retain the modified celluloses especially the methylcelluloses, hydroxyalkylcelluloses, ethylhydroxyethylcelluloses, methyl ethyl celluloses, carboxymethylcelluloses, hydroxypropylcelluloses, hydroxypropylmethylcelluloses; the carboxymethylcelluloses and hydroxyethylcelluloses being preferred, the most preferred being hydroxyethylcelluloses. We can cite in particular the products of commercial: NatrosolTM 250 HHR PC from Ashland Specialty Chemical;
Espesante CH
from Chemir; Tylose H 15 YG4 from SE Tylose and CellosizeTM HEC QP 40 from DowDuPont (Dow).
Although the relative proportions between the different constituents of binary mix do are not fundamental, it is preferable for the film-forming system to be most effective that the pregelatinized starch is in the majority compared to the whole system film-forming, therefore, represents more than 50% by weight and preferably more 60% in weight, or even more than 70% by weight, of the entire film-forming system.
Thus, according to a first embodiment, the film-forming system according to the invention comprises, and preferably consists of:
= 1 to 12 parts by dry weight of at least one pregelatinized starch, = 0.01 to 5 parts, preferably 0.01 to 2 parts, by dry weight of at least one non-starchy polysaccharide chosen from gums of plant origin, erasers of microbial origin and cellulose derivatives.
According to a second embodiment, the film-forming system according to the invention includes, and preferably consists of:
a) 1 to 12 parts by dry weight of at least one pregelatinized starch, b) 0.01 to 2 part of at least one gum of plant or microbial origin.
More preferably, it comprises, or better still consists of:
a) 5 to 11 parts by dry weight of at least one pregelatinized starch, b) 0.1 to 1 part of at least one gum of plant or microbial origin.

9 Very preferably, it comprises, or better still consists of:
a) 6 to 10 parts by dry weight of at least one pregelatinized starch, b) 0.2 to 0.8 part of at least one gum of plant or microbial origin.
And, according to a third embodiment, the film-forming system according to the invention comprises, and preferably consists of:
a) 1 to 12 parts by dry weight of at least one pregelatinized starch, b) 0.01 to 2 part of at least one gum of plant or microbial origin, c) and 0.01 to 3 parts of at least one cellulose derivative.
More preferably, it comprises, or better still consists of:
a) 5 to 11 parts by dry weight of at least one pregelatinized starch, b) 0.1 to 1 part of at least one gum of plant or microbial origin, c) 0.1 to 2 parts of at least one cellulose derivative.
Very preferably, it comprises, or better still consists of:
a) 6 to 10 parts by dry weight of at least one pregelatinized starch, b) 0.2 to 0.8 part of at least one gum of vegetable or microbial origin, c) 1 to 1.5 parts of at least one cellulose derivative.
According to an advantageous variant, the film-forming system according to the invention present in water, a Brookfield viscosity measured at 20 C of between 1,000 and 20,000 mPa.s, of preferably between 1,500 and 15,000 mPa.s, and most preferably between 2,000 and 10,000 mPa.s, for a concentration ranging from 1 to 10%, preferably ranging from 2 to 6%. Typically this viscosity will be between 1,000 and 15,000 mPa.s, better between 2 000 and 10 000 mPa.s for a concentration of 4% in water. The viscosity Brookefield is measured with a Brookfield DV-II + Pro viscometer, at a speed of 20 rpm with a spindle adapted to the measured viscosity: the chosen spindle is the 5P3 spindle when the viscosity is less than or equal to 5,000 mPa.s, 5P4 when the viscosity is between 5,000 mPa.s and 7,000 mPa.s and SP5 when the viscosity is greater than or equal to 7,000 mPa.s.
The film-forming system according to the invention makes it possible to reduce the exposure of the epidermis and hair to polluting atmospheric particles, preventing or reducing membership microparticles. This is because when it is applied to the skin through of a composition aqueous cosmetic, the film-forming system leads, after evaporation of the water, to the formation of a film on the surface of the epidermis. This film acts as a physical barrier between the part of the body and the surrounding atmosphere, so that part particles atmospheres to which it is exposed, in particular those of micrometric, called microparticles, in particular of size between 111 m and 10 μm, do not can not cross it, and thus cannot come into contact with the parts underlying such as in particular the epidermis. This reduces the number of pollution particles likely to be deposited in particular on the virgin epidermis, to penetrate there and to cause it degradation: the film-forming system according to the invention therefore makes it possible to limit the effects harmful effects of atmospheric pollution on the epidermis or any other part of the body.
A second advantage of the film-forming system according to the invention is to facilitate elimination of microparticles deposited for example on the epidermis, by washing, in particular by rinse with

10 water.
After application and drying on the epidermis, the barrier film obtained exhibits also the particularity of not retaining particles. Rinsing of the film by water is enough to remove part of the particles deposited on the film. In relation to agents film-forming petrochemical, the film-forming system according to the invention has a increased to reduce the adhesion of particles to the skin.
Another object of the present invention is a method of manufacturing of a system film-forming and stable, through the steps of:
a) provide an aqueous solution, b) heating the aqueous solution to a temperature between 20 C and 80 C, preferably between 20 C and 50 C, and more preferably still at temperature close to ambient temperature, c) introduce with stirring into the aqueous solution at least one starch pregelatinized, and at least one non-starch polysaccharide chosen from the original gums plant, gums of microbial origin, or cellulose derivatives, of way to get a middle Those skilled in the art will know how to adapt the speed of stirring of the medium, in particular by function the quantity of the ingredients to be dispersed. But a speed of agitation between 1000 and 5000 rpm appears quite acceptable.
It is of course also understood that the method according to the invention resumes from its account all the characteristics listed above relating to the binary system made according to said method.
The film-forming system according to the invention is found to be very stable and non-allergenic.
for the skin. He also offers the advantage of having a viscosity constancy and texture, don't

11 not dependent on pH or the presence of electrolytes. In other words, this system is little affected by the pH of the medium, or by the presence of mono, di or trivalent. This criterion is all the more important given that in general, products for cosmetic and especially for topical application are likely to be subjected or exposed Has pH variations. Thus, the pH of the skin, slightly acidic, varies by example between 4 and 6.
Have a product that does not present any particular limitation of use in pH matter or presence of salts therefore represents a very great technical advantage for a cosmetic composition.
Finally, a last object according to the invention consists of a composition cosmetic container the film-forming system, and in particular stable, according to the invention.
Indeed, the film-forming system, and in particular stable, in accordance with the invention allows the easy production of emulsions which are both very stable and very fine, with modular textures and having a fresh, silky and non-greasy feel, even for amounts high in phase fat dispersed. Preferably, the cosmetic composition comprises the system film-forming in a concentration of between 1 and 10% by weight, more preferably included between 1.5 and 8% by weight and better still between 2 and 6% by weight.
Said cosmetic composition may in particular be a care product for the skin, like a moisturizing, anti-wrinkle, anti-aging, slimming, firming composition, a balm bodysuit, a beauty mask and come in the form of thickened solutions, gels, milks, creams, suspensions, aerosols or foams.
Said cosmetic composition can in particular be a make-up product for the eyes, such as mascara, liner, or facial makeup such as a powder, foundation, facial, or nail makeup product like varnish, or a lip makeup product such as lipstick or lipstick shiny at lip.
Said cosmetic composition may in particular be a sun product such as a protection or a self-tanner.
Said cosmetic composition can in particular be a hygiene product bodily like a soap, a depilatory, a deodorant.
Said cosmetic composition can in particular be a hair product such as a shampoo, coloring, dye, perm, hair loss lotion, a lacquer, a fixative.
Said cosmetic composition can in particular be a perfume, a water of toilet, a perfume.

12 The following examples will allow you to better understand the present invention, without however, limit its scope.
Examples In all the examples, different formulations were made, with products following:
- Pregeflo CH 40 marketed by the company Roquette Frères - Pregeflo CR 3510 marketed by the company Roquette Frères:
it is a starch of pregelatinized and hydroxypropylated waxy corn with a hydroxypropyl content about 7% m, - Xanthan gum marketed by the company CP Kelco under the name Keltrol CG-T
- Hydroxyethylecellulose (HEC) marketed by the company Ashland Specialty Chemical under the name NatrosolTM 250 HHR PC
All viscosities are determined from a viscometer Brookfield DV-II + Pro, at a speed of 20 rpm with a spindle adapted to the measured viscosity: the chosen pin is spindle SP3 when the viscosity is less than or equal to 5,000 mPa.s, SP4 when the viscosity is between 5,000 mPa.s and 7,000 mPa.s and SP5 when the viscosity is superior or equal to 7,000 mPa.s.
Example 1: preparation of O / W emulsions This example illustrates the preparation of emulsions of the oil-in-water type, containing like film-forming agent, i.e. a film-forming agent of petrochemical origin (Table 1), either an agent film-forming according to the invention (Tables 2 and 2bi5).
Oily phase Heliantus annus seed oil 15%
Aqueous phase Water qsp 100%
Film-forming agent: Carbopol Ultrez 10NF ¨ Lubrizol 0.3%
Preservative: Sepicide HB ¨ Seppic 1%
Emulsifier: Montanov L ¨ Seppic 3%
Table 1: Emulsion A, reference, with original film-forming agent petrochemical

13 Oily phase Heliantus annus seed or l 15%
Aqueous phase Water qsp 100%
Film-forming system:
Pregeflo CH 40 ¨ Roquette Frères 3.3%
Keltrol CG-T¨ CP Kelco 0.2%
NatrosolTM 250 HHR PC ¨ Ashland Specialty Chemical 0.5%
Preservative: Sepicide HB ¨ Seppic 1%
Emulsifier: Montanov L ¨ Seppic 3%
Table 2: INV1 emulsion with film-forming system according to the invention Oily phase Heliantus annus seed oil 15%
Aqueous phase Water qsp 100%
Film-forming system:
Pregeflo CR 3510 ¨ Roquette Frères 3.8%
Keltrol CG-T¨ CP Kelco 0.2%
Preservative: Sepicide HB ¨ Seppic 1%
Emulsifier: Montanov L ¨ Seppic 3%
Table 2a: INV2 emulsion with film-forming system according to the invention The procedure for preparing an emulsion is as follows: preparing the sentence aqueous by dispersing the film-forming agent in water at 35-40 C with stirring with a pale deflocculating at 1000 rpm for at least 10 minutes. We add then the emulsifying agent with stirring at 35-40 C. Separately, the oily phase to 35-40 C. The oily phase is then emulsified in the aqueous phase at 35-40 C under stirring with a deflocculating paddle at 1500 revolutions per minute for 15 minutes. We finally adds the curator. The emulsion is kept under stirring until that she is at ambient temperature.
The emulsions prepared according to this procedure and the compositions given to the Tables 1, 2 and 2a form creams suitable for application to the skin.
After having been

14 applied, They form a protective film, the barrier properties of which particles atmospheres are evaluated in the following example.
Emulsion Viscosity (mPa. $) Particle size (i.trn) pH
A 10,000 10 to 20 6 INV1 13,000 10 6 Table 3: characteristics of the emulsions prepared Example 2: anti-pollution barrier effect This example compares the performance of anti-pollution barrier effects by microparticles for the three emulsions prepared in Example 1.
To do this, tests were carried out on human epidermis of 10 volunteers aged 18 at age 65, using as an experimental model carbon particles from sizes between 1 µm and 5 µm, referred to as microparticles. These charcoal microparticles appropriately model real polluting microparticles, such as the particles of combustion engine exhaust.
Preparation of charcoal microparticles:
Prior to the tests, a sufficient quantity of charcoal microparticles by subjecting charcoal to the action of a household grinder for 10 minutes.
This grinding provides micrometric size particles having a distribution of distributed size predominantly between 1 µm and 5 µm.
Procedure for the test on the epidermis of volunteers:
On the forearm of each volunteer, three areas of 1 cm by 1 have been defined.
cm. For each zone thus delimited, one carries out the two following measurements: one measure of counting the number of black microparticles using a photograph taken with a Dino-Lite digital microscope then processed by image analysis, as well as a measure of colorimetry with a Minolta CR-200 chromameter.
Microparticle count:
High resolution photographs taken with the Dino Lite digital microscope are processed with the image processing software GIMP (GNU Image Manipulation Software).
We have first proceeded to a projection along an axis (black and white) to make bring out the black microparticles, and standardize the images. We then counted the number of pixels black with GIMP software.

Colorimetry measurement:
The Minolta CR-200 chromameter is an objective color measurement tool surfaces.
It provides a result composed of three coordinates L *, a * and b * in space of CIE 1976 colorimetry (also called CIELAB color space). We exploited only the 5 parameter L *, which characterizes the lightness of the color: L * = 0 corresponds to the color black, L * = 100 indicates a white color.
Conduct of the test on volunteers:
Microparticle count and colorimetry measurements are performed before the application of emulsions, that is to say on virgin skin (TO measurements).
10 Three areas were covered with the emulsions to be tested, one with emulsion A, one with the INV1 emulsion, one with the INV2 emulsion. For this, approximately 2 mg of emulsion per cm2 of skin by depositing the required quantity with a pipette, then spreading out with a spatula. The volunteers then waited 20 minutes to allow emulsion of to dry. The third zone is kept blank in order to constitute the zone witness. We have

15 performed the measurements (T1 measurements).
The charcoal particles were applied to the 3 areas by dabbing them with a sponge with make-up impregnated with particles, then the measurements were carried out (measurements T2).
The 3 areas were then rinsed by running 100 mL of water over the entire area.
surface of each zone, then the measurements were carried out (T3 measurements).
The results presented in the following table were obtained:
Moment Average number of black pixels Witness Emulsion Emulsion Emulsion measurements A INV1 INV2 Table 4: average results of the number of black pixels obtained on the panel of volunteers

16 Moment Parameter L * mean Witness Emulsion Emulsion Emulsion measurements A INV1 INV2 TO 62.87 63.06 64.05 62.14 T1 63.60 63.25 63.61 62.55 T2 20.01 21.45 22.44 20.77 T3 24.81 33.46 36.42 37.93 Table 4bis: average results of the parameter L * obtained on the panel of volunteers The anti-pollution barrier effect was then evaluated by calculating the percentage variation of number of black pixel and lightness between T3 and T2, compared to the values at T2.
Average number of black pixels Emulsion Emulsion Emulsion Witness -0.78% -5.97% -8.64% -22.7%
Table 5: Average percentages of variation between T3 and T2 compared to T2 Parameter L * mean Emulsion Emulsion Emulsion Witness 24.81% 59.95% 64.17% 82.6%
Table 5bis: average percentages of variation between T3 and T2 compared to On the control zone, the absence of a barrier effect was verified: rinsing with water does not remove microparticles deposited (variation less than 1% not significant). The rinsing allowed to increase clarity by 24.81%, which is significant, probably due to elimination of microparticles not detected during the count measurement, due to one size below the detection limit of the digital microscope.
On the area covered with emulsion A, containing the film-forming agent petrochemical, the effect barrier is clearly highlighted, as expected: the number of pixels black a decreased by 5.97%, which is quite significant, and the clarity increased by 59.95%, or 35% of more than the control area.

17 On the area covered with the INV1 emulsion, containing the film-forming system according to the invention, the barrier effect was also observed, surprisingly and unexpectedly, and is even improved compared to the area covered with emulsion A: the reduction of number of black pixels reached 8.64%, or 2.7% more than emulsion A; clarity reached 64.17%, i.e.
4% more than emulsion A.
The reduction in the number of black pixels, and simultaneously, the increase in the clarity, on the skin area covered with a film formed by application of the INV1 emulsion containing a film-forming system according to the invention, demonstrate that the film-forming system according to the invention effectively prevents the adhesion of microparticles on the skin, and also from facilitate their removal by washing, in particular by rinsing with water.
The INV2 emulsion containing a film-forming system according to the invention comprising as pregelatinized starch a pregelatinized and hydroxypropylated waxy corn starch presents improved barrier effect results compared to the INV1 emulsion. We have in effect one reduction in the number of black pixels by 22.7%, and an increase in clarity by 82.6%.
Example 3: sensory parameters This example illustrates the evolution of different sensory parameters observed for some aqueous solutions containing different film-forming systems according to the invention, after 48 hours.
All the formulations were made as follows:
1) Weigh and mix the different components of the film-forming system, 2) Heat the water up to 40 C, 3) Under the turbine stirring at 2000 revolutions per minute, disperse the mixture ingredients added little by little, 4) Leave under stirring until the emulsion is at temperature ambient.
The whiteness descriptor is defined by the color palette of the figure 1. The product is examined under the lamp and compared to the color palette by a panel evaluators.
The string is an important descriptor for the pick-up step of the product. It is evaluated by depositing between 50 and 100 IL of product on the go, which is then pinched between the thumb and forefinger slowly, then slowly lifting the index finger from the thumb: we then observe if a connecting wire between the thumb and forefinger is formed (stringy product) or not (product no spinning). In the event that a connecting wire is formed, we evaluate the gap between the thumb

18 and the index which leads to the breaking of the thread, and we then note the character spinning on a ladder 0 to 10: 0 corresponds to the total absence of connection wire, 10 corresponds to a thread of connection that persists under a maximum gap between the thumb and forefinger.
Spread is evaluated by examining the product after depositing on the back from hand 50 to 100111 of the product, during its spread in 10 rotations, under a lamp.
The spread is all the more important since there is little resistance to movement between the 5th and the 10th round on the hand.
The sticky is a descriptor of the afterfeel stage. It is evaluated in examining the product under a lamp after having deposited on the back of the hand 50 to 100 EV of product, then have it spread over 10 rotations. Repeatedly press and release a finger on the surface of the hand where the product was applied. During this movement, we assess the strength membership between the finger and the skin of the hand, and we note on a scale of 0 to 10: 0 correspond to the total absence of adhesion, 10 corresponds to an adhesion such as the finger can not be peeled off from the skin of the hand.
Finally, the penetrating nature of the product is evaluated by an examination under the product lamp two minutes after having carried out 10 rotations of the product on the back of the hand, doing a glide on the skin. A panel of assessors then assesses the quantity of residue of recovered product.
Table 6 shows that all the formulations tested make it possible to obtain a satisfactory sensory setting. In particular, we always obtain a little stringy product with a descriptor less than or equal to 3; spreading well, with a descriptor spreading greater than or equal to 5 and most often greater than or equal to 7, not very sticky, with a corresponding descriptor less than or equal to 4 and penetrating; with a sensory descriptor corresponding to or greater than 6. With the exception of certain formulations rich in hydroxyethylcellulose, in all formulations very white, with whiteness descriptors greater than or equal to 6.
The invention therefore makes it possible to obtain satisfactory products from a point of view sensory.

19 % PREGEFLO% Gum Sensory evaluations after 48 hours % HEC
CH40 xanthan White Spinning Spreading Pantyhose Penetrating 2.5 0.3 0.2 7 2 8 2 8 4 0.6 0.2 7 3 7 0 8 4 0.3 0.8 6 3 5 3 6 3.25 0.45 1 3 2 5 3 6 4 0.3 0.2 9 2 7 2 7 4.5 0.45 0.5 6 3 5 4 8 2.5 0.3 0.8 8 2 7 0 6 3.25 0.45 0.5 8 3 7 0 9 2.5 0.6 0.8 5 2 5 1 7 2 0.45 0.5 8 1 7 2 7 4 0.6 0.8 4 3 7 2 8 2.5 0.6 0.2 9 3 9 3 7 3.25 0.45 0 9 3 8 3 7 3.25 0.7 0.5 8 2 8 3 8 3.25 0.2 0.5 9 2 8 4 8 Table 6: Sensory results of aqueous solutions containing systems film-forming according to the invention

Claims (19)

PCT / FR2019 / 050920 1 ¨ Film-forming system consisting of:
= at least one pregelatinized starch, 5 = from least one non-starch polysaccharide chosen from the original gums vegetable and gums of microbial origin, = and at least one non-starch polysaccharide chosen from derivatives cellulosic. 10 2 ¨
Film-forming system according to Claim 1, characterized in that the starch pregelatinized comes from corn, potatoes, wheat, rice, peas, oats, lentils, faba beans, broad beans, beans, chickpeas, or combinations thereof here, and preferably derived from a waxy starch and in particular a waxy starch from corn or apple of earth or rice. 3 ¨ film-forming system according to any one of the preceding claims, characterized in that the pregelatinized starch is a modified starch, preferably acetylated, hydroxyethylated, hydroxypropylated, cationized, anionized, or crosslinked. 4 - film-forming system according to the preceding claim, characterized in that starch pregelatinized is an acetylated starch. 5 - film-forming system according to any one of the preceding claims, characterized in that the gums of vegetable origin are the gums obtained from seeds or exudates plants, or gums extracted from algae, or derivatives of said gums original vegetable. 6 - film-forming system according to any one of the preceding claims, characterized in that the gums of microbial origin are the gums obtained from a fermentation microbial or derivatives of said gums of microbial origin. 7 - film-forming system according to the preceding claim, characterized in that the erasers of microbial origin are xanthan gums. 8 - film-forming system according to any one of the preceding claims, characterized in that the cellulosic derivatives are modified celluloses in particular the methylcelluloses, hydroxyalkylcelluloses, ethylhydroxyethylcelluloses, methyl ethyl celluloses, carboxymethylcelluloses, hydroxypropylcelluloses, hydroxypropylmethylcelluloses, carboxymethylcelluloses and hydroxyethylcelluloses being preferred. 9 - film-forming system according to the preceding claim, characterized in that drifts cellulosics are hydroxypropylmethylcelluloses. 10 - film-forming system according to any one of the preceding claims, characterized in that it comprises, and preferably consists of:
= 1 to 12 parts by dry weight of at least one pregelatinized starch, = Et 0.01 to 5 parts, preferably 0.01 to 2 parts, by dry weight of at least a non-starchy polysaccharide chosen from gums of plant origin, erasers of microbial origin and cellulose derivatives. 11 - film-forming system according to claim 10 characterized in that it includes, and preference consists of:
= 1 to 12 parts, preferably 5 to 11 parts, by dry weight of at least a starch pregelatinized, = Et 0.01 to 2 parts, preferably 0.1 to 1 part, by dry weight of at minus one gum of vegetable or microbial origin. 12 - film-forming system according to one of claims 10 or 11, characterized in what he comprises, and preferably consists of:
= 1 to 12 parts, preferably 5 to 11 parts, by dry weight of at least a pregelatinized starch, = 0.01 to 2 parts, preferably 0.1 to 1 part, by dry weight of at least a gum of plant or microbial origin, = Et 0.01 to 3 parts, preferably 0.1 to 2 parts, by dry weight of at least a cellulose derivative. 13 - film-forming system according to claim 12, characterized in that it includes, and preference consists of:

= 6 to 10 parts by dry weight of at least one pregelatinized starch, = 0.2 to 0.8 part by dry weight of at least one gum of vegetable origin or microbial, = Et 1 to 1.5 parts by dry weight of at least one cellulose derivative. 14 - film-forming system according to any one of the preceding claims characterized in that it is for cosmetic use, preferably topical.
- Manufacturing process of a film-forming system, through the steps of:
10 a) provide an aqueous solution, b) heating the aqueous solution to a temperature between 20 C and 80 C, preferably between 20 C and 50 C, and more preferably still at temperature close to ambient temperature, c) Introduce at least one starch with stirring into the aqueous solution pregelatinized, At least one vegetable gum of plant or microbial origin, and at least one minus one cellulose derivative, so as to obtain a medium. 16 - Cosmetic composition comprising a film-forming system according to one any of the claims 1 to 14, preferably in a concentration between 1 and 10% by weight, more preferably between 1.5 and 8% by weight, and better still between 2 and 6%
in weight. 17 ¨ Composition according to claim 16, characterized in that it is a product of skin care, eye makeup, sunscreen, of a product personal hygiene, a hair product or a perfume. 18 - Cosmetic use of the film-forming system according to any one of claims 1 to 14. 19 - Cosmetic use according to claim 18 characterized in that the system film-forming is used in a topical composition, preferably for use sure the human epidermis, to provide a barrier property, preferably anti pollution atmospheric, to said topical composition.